The potential of air classification of dusts from dry off‐gas cleaning for improved recycling of these dusts is investigated. By air classification, a dust can be separated into a coarse fraction and a fine fraction. Some components which are usually unwanted in recycled dust like alkali chlorides and Zn and Pb are often enriched in the fine dust fraction. Thus, air classification of dust before recycling will allow recycling of an increased amount of dust and, thereby reduce the amount of dust which has to be sent to landfill. The feasibility of such treatment is studied on the basis of estimated investment costs and operating costs. The main factors affecting the feasibility of such a treatment are the capacity of the unit, the cost of landfill of the respective dust, and the fraction of dust which can additionally be recycled after the treatment. The investigation of classification of BF dusts and sinter plant dust shows that economic operation can be reached under the assumed conditions at landfill costs above 35–60 EUR/t for BF dust and 90 EUR/t for sinter plant dry desulfurization and de‐dusting residue. The integration of air classification into EAF dust in‐plant recycling can be feasible, too.
-In this paper, the feasibility of air classification of dusts from iron and steel production for improved recycling is investigated. By air classification a dust can be separated into a coarse fraction and a fine fraction. According to literature data some components which are usually unwanted in recycled material like alkali chlorides and the heavy metals Zn and Pb are enriched in the fine dust fraction. Therefore, air classification of dust before recycling would allow recycling of an increased amount of dust and reduce landfill. However, the benefits have to be measured against the cost of air classification. In order to be able to study the feasibility of such treatment the investment costs and the operating costs of a classification facility were calculated for three different dust treatment capacities. The results show that the three main factors affecting the feasibility of such a treatment are the capacity of the unit, the cost of landfill of the respective dust and the fraction of dust which can be recycled after the treatment. A cost curve per ton of processed dust is presented and shown for annual capacities of 2.370, 7.000 and 23.000 t. For the higher capacities it is shown that good feasibility is probable even if rather low landfill costs are assumed.
In this study, the possible reason for conveying problems sometimes observed in the pneumatic transport of casting powders from the storage containers to the mould was studied. Since some correlation in the occurrence of the said conveying problems to days with high humidity has been observed, the influence of the relative humidity of the air on the flowability of casting powders was investigated. The results showed that below a relative humidity of approximately 75%, all three casting powders investigated were free-flowing but with increasing humidity, the flowability decreased. At a relative humidity of 90%, only one casting powder was cohesive but not very cohesive. To avoid problems in pneumatic conveying, therefore, the relative humidity of the atmosphere in the pneumatic conveying system and the storage bins has to be limited.
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